Dr. Parsons has been invited to proctor a group of surgeons from New England Baptist Hospital and will be teaching several surgeons and fellows on the Exactech Equinoxe Shoulder replacement system.
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Recent King & Parsons Insights
10 Things to Know about the Ream and Run Shoulder Replacement
10 Things to know about the Ream and Run shoulder replacement a successful alternative to total shoulder replacement when performed properly. Learn more…
Top Ten Ways To Enhance Your Recovery After Joint Replacement Surgery
Here is our top ten list of ways to enhance your recovery after joint replacement surgery. Learn more.
The Truth About Robotic Joint Replacement
A recent article, published in the Journal of Arthroplasty by 3 premiere total joint surgeons, discusses the state of robotics in joint replacement. Learn more.
Outpatient Joint Replacement: A Hospital Stay is No Longer Necessary for Many Patients
Modern surgery centers have been designed for outpatient joint replacement, making the experience not only safe but nicer for patients and family. Learn more
Dr. Parsons Is Keynote Faculty For Course On Outpatient Shoulder Replacement
Dr. Parsons was invited to serve as an instructional course leader about same-day shoulder replacement surgery based on the AVATAR program. Learn more…
A NH Orthopaedics Center for Expertise in Shoulder Replacement
Dr. Parsons has been honored with 4 podium presentations at the 14th International Congress on Shoulder and Elbow Surgery. Learn more…
Stemless and Short Stem Total Shoulder Replacement: Less is more
Using a stem system with a wide variety of options provides shoulder replacement surgeons with ample tools to achieve excellent outcomes. Learn why…
Ream and Run: Shoulder Replacement Option for Young and Active Patients
Ream and run is a method of shoulder replacement for younger and physically active patients who are at risk for eventual failure of the implant. The weak link in shoulder replacement is the glenoid or plastic socket. The ream and run avoids the use of a glenoid implant by shaping the native socket to a conformity with the ball. This provides optimal loading mechanics and smooth range of motion without the risk of glenoid implant loosening, wear or fracture.